Saving and Loading HTML Content

Saving and Loading HTML Content

In the previous guide, we looked at how to serialize the Slate editor's content and save it for later. What if you want to save the content as HTML? It's a slightly more involved process, but this guide will show you how to do it.

Let's start with a basic editor:

import{ Editor }from'slate-react'

import Plain from'slate-plain-serializer'

​

classAppextendsReact.Component{

state ={

value: Plain.deserialize(''),

}

​

onChange=({ value })=>{

this.setState({ value })

}

​

render(){

return<Editor value={this.state.value} onChange={this.onChange}/>

}

}

That will render a basic Slate editor on your page.

Now... we need to add the Html serializer. And to do that, we need to tell it a bit about the schema we plan on using. For this example, we'll work with a schema that has a few different parts:

A paragraph block.

A code block for code samples.

A quote block for quotes...

And bold, italic and underline formatting.

By default, the Html serializer knows nothing about our schema, just like Slate itself. To fix this, we need to pass it a set of rules. Each rule defines how to serialize and deserialize a Slate object.

To start, let's create a new rule with a deserialize function for paragraph blocks.

const rules =[

// Add our first rule with a deserializing function.

{

deserialize(el, next){

if(el.tagName.toLowerCase()=='p'){

return{

object:'block',

type:'paragraph',

data:{

className: el.getAttribute('class'),

},

nodes:next(el.childNodes),

}

}

},

},

]

The el argument that the deserialize function receives is just a DOM element. And the next argument is a function that will deserialize any element(s) we pass it, which is how you recurse through each node's children.

Okay, that's deserialize, now let's define the serialize property of the paragraph rule as well:

const rules =[

{

deserialize(el, next){

if(el.tagName.toLowerCase()=='p'){

return{

object:'block',

type:'paragraph',

data:{

className: el.getAttribute('class'),

},

nodes:next(el.childNodes),

}

}

},

// Add a serializing function property to our rule...

serialize(obj, children){

if(obj.object =='block'&& obj.type =='paragraph'){

return<p className={obj.data.get('className')}>{children}</p>

}

},

},

]

The serialize function should also feel familiar. It's just taking Slate models and turning them into React elements, which will then be rendered to an HTML string.

The object argument of the serialize function will either be a Node, a Mark or a special immutable String object. And the children argument is a React element describing the nested children of the object in question, for recursing.

Okay, so now our serializer can handle paragraph nodes.

Let's add the other types of blocks we want:

// Refactor block tags into a dictionary for cleanliness.

constBLOCK_TAGS={

p:'paragraph',

blockquote:'quote',

pre:'code',

}

​

const rules =[

{

// Switch deserialize to handle more blocks...

deserialize(el, next){

const type =BLOCK_TAGS[el.tagName.toLowerCase()]

if(type){

return{

object:'block',

type: type,

data:{

className: el.getAttribute('class'),

},

nodes:next(el.childNodes),

}

}

},

// Switch serialize to handle more blocks...

serialize(obj, children){

if(obj.object =='block'){

switch(obj.type){

case'paragraph':

return<p className={obj.data.get('className')}>{children}</p>

case'quote':

return<blockquote>{children}</blockquote>

case'code':

return(

<pre>

<code>{children}</code>

</pre>

)

}

}

},

},

]

Now each of our block types is handled.

You'll notice that even though code blocks are nested in a <pre> and a <code> element, we don't need to specifically handle that case in our deserialize function, because the Html serializer will automatically recurse through el.childNodes if no matching deserializer is found. This way, unknown tags will just be skipped over in the tree, instead of their contents omitted completely.

Okay. So now our serializer can handle blocks, but we need to add our marks to it as well. Let's do that with a new rule...

constBLOCK_TAGS={

blockquote:'quote',

p:'paragraph',

pre:'code',

}

​

// Add a dictionary of mark tags.

constMARK_TAGS={

em:'italic',

strong:'bold',

u:'underline',

}

​

const rules =[

{

deserialize(el, next){

const type =BLOCK_TAGS[el.tagName.toLowerCase()]

if(type){

return{

object:'block',

type: type,

data:{

className: el.getAttribute('class'),

},

nodes:next(el.childNodes),

}

}

},

serialize(obj, children){

if(obj.object =='block'){

switch(obj.type){

case'code':

return(

<pre>

<code>{children}</code>

</pre>

)

case'paragraph':

return<p className={obj.data.get('className')}>{children}</p>

case'quote':

return<blockquote>{children}</blockquote>

}

}

},

},

// Add a new rule that handles marks...

{

deserialize(el, next){

const type =MARK_TAGS[el.tagName.toLowerCase()]

if(type){

return{

object:'mark',

type: type,

nodes:next(el.childNodes),

}

}

},

serialize(obj, children){

if(obj.object =='mark'){

switch(obj.type){

case'bold':

return<strong>{children}</strong>

case'italic':

return<em>{children}</em>

case'underline':

return<u>{children}</u>

}

}

},

},

]

Great, that's all of the rules we need! Now let's create a new Html serializer and pass in those rules:

import Html from'slate-html-serializer'

​

// Create a new serializer instance with our `rules` from above.

const html =newHtml({ rules })

And finally, now that we have our serializer initialized, we can update our app to use it to save and load content, like so:

// Load the initial value from Local Storage or a default.

const initialValue = localStorage.getItem('content')||'<p></p>'

​

classAppextendsReact.Component{

state ={

value: html.deserialize(initialValue),

}

​

onChange=({ value })=>{

// When the document changes, save the serialized HTML to Local Storage.